创伤性轴索损伤（TAI）：定义、病理生理学和影像学——叙述性综述。

Traumatic axonal injury (TAI): definitions, pathophysiology and imaging-a narrative review.

机构信息

Department of Neurosurgery, Erasmus MC University Medical Center, Rotterdam, The Netherlands.

出版信息

Acta Neurochir (Wien). 2021 Jan;163(1):31-44. doi: 10.1007/s00701-020-04594-1. Epub 2020 Oct 2.

DOI:10.1007/s00701-020-04594-1

PMID:33006648

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7778615/

Abstract

INTRODUCTION

Traumatic axonal injury (TAI) is a condition defined as multiple, scattered, small hemorrhagic, and/or non-hemorrhagic lesions, alongside brain swelling, in a more confined white matter distribution on imaging studies, together with impaired axoplasmic transport, axonal swelling, and disconnection after traumatic brain injury (TBI). Ever since its description in the 1980s and the grading system by Adams et al., our understanding of the processes behind this entity has increased.

METHODS

We performed a scoping systematic, narrative review by interrogating Ovid MEDLINE, Embase, and Google Scholar on the pathophysiology, biomarkers, and diagnostic tools of TAI patients until July 2020.

RESULTS

We underline the misuse of the Adams classification on MRI without proper validation studies, and highlight the hiatus in the scientific literature and areas needing more research. In the past, the theory behind the pathophysiology relied on the inertial force exerted on the brain matter after severe TBI inducing a primary axotomy. This theory has now been partially abandoned in favor of a more refined theory involving biochemical processes such as protein cleavage and DNA breakdown, ultimately leading to an inflammation cascade and cell apoptosis, a process now described as secondary axotomy.

CONCLUSION

The difference in TAI definitions makes the comparison of studies that report outcomes, treatments, and prognostic factors a daunting task. An even more difficult task is isolating the outcomes of isolated TAI from the outcomes of severe TBI in general. Targeted bench-to-bedside studies are required in order to uncover further pathways involved in the pathophysiology of TAI and, ideally, new treatments.

摘要

简介

创伤性轴索损伤（TAI）是一种在影像学研究中定义为脑肿胀的情况下，在更局限的白质分布中存在多个、分散的小出血性和/或非出血性病变，以及轴浆运输受损、轴索肿胀和外伤性脑损伤（TBI）后的断开。自 20 世纪 80 年代描述以来，随着 Adams 等人的分级系统，我们对该实体背后的过程的理解有所增加。

方法

我们通过查询 Ovid MEDLINE、Embase 和 Google Scholar，对创伤性轴索损伤患者的病理生理学、生物标志物和诊断工具进行了范围广泛的系统叙述性综述，检索时间截至 2020 年 7 月。

结果

我们强调了在没有适当验证研究的情况下对 MRI 上的 Adams 分类的误用，并强调了科学文献中的差距和需要更多研究的领域。过去，病理生理学背后的理论依赖于严重 TBI 后对脑物质施加的惯性力，导致原发性轴索切断。现在，这个理论已经部分被放弃，取而代之的是一个更精细的理论，涉及生化过程，如蛋白质裂解和 DNA 断裂，最终导致炎症级联反应和细胞凋亡，这个过程现在被描述为继发性轴索切断。

结论

TAI 定义的差异使得比较报告结果、治疗和预后因素的研究变得困难。更困难的任务是将孤立性 TAI 的结果与一般严重 TBI 的结果分开。需要进行有针对性的基础到临床研究，以揭示 TAI 病理生理学中涉及的进一步途径，并理想地发现新的治疗方法。

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Identification of plasma biomarkers for diffuse axonal injury in rats by iTRAQ-coupled LC-MS/MS and bioinformatics analysis.

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创伤性轴索损伤（TAI）：定义、病理生理学和影像学——叙述性综述。

Traumatic axonal injury (TAI): definitions, pathophysiology and imaging-a narrative review.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

简介

方法

结果

结论

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